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Aerosol Cloud meTeorology Interactions oVer the western ATlantic Experiment
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Flight Report
2020
ACTIVATE-FLIGHTREPORT_20200214_R0_RF01.pdf
ACTIVATE-FLIGHTREPORT_20200215_R0_RF02.pdf
ACTIVATE-FLIGHTREPORT_20200217_R0_RF03.pdf
ACTIVATE-FLIGHTREPORT_20200221_R0_RF04.pdf
ACTIVATE-FLIGHTREPORT_20200222_R0_L1_RF05.pdf
ACTIVATE-FLIGHTREPORT_20200222_R0_L2_RF06.pdf
ACTIVATE-FLIGHTREPORT_20200223_R0_L1_RF07.pdf
ACTIVATE-FLIGHTREPORT_20200223_R0_L2_RF08.pdf
ACTIVATE-FLIGHTREPORT_20200227_R0_RF09.pdf
ACTIVATE-FLIGHTREPORT_20200228_R0_L1_RF10.pdf
ACTIVATE-FLIGHTREPORT_20200228_R0_L2_RF11.pdf
ACTIVATE-FLIGHTREPORT_20200229_R0_RF12.pdf
ACTIVATE-FLIGHTREPORT_20200301_R0_L1_RF13.pdf
ACTIVATE-FLIGHTREPORT_20200301_R0_L2_RF14.pdf
ACTIVATE-FLIGHTREPORT_20200302_R0_RF15.pdf
ACTIVATE-FLIGHTREPORT_20200306_R0_RF16.pdf
ACTIVATE-FLIGHTREPORT_20200308_R0_L1_RF17.pdf
ACTIVATE-FLIGHTREPORT_20200308_R0_L2_RF18.pdf
ACTIVATE-FLIGHTREPORT_20200309_R0_RF19.pdf
ACTIVATE-FLIGHTREPORT_20200311_R0_RF20.pdf
ACTIVATE-FLIGHTREPORT_20200312_R0_L1_RF21.pdf
ACTIVATE-FLIGHTREPORT_20200312_R0_L2_RF22.pdf
ACTIVATE-FLIGHTREPORT_20200813_R0_RF23.pdf
ACTIVATE-FLIGHTREPORT_20200817_R0_RF24.pdf
ACTIVATE-FLIGHTREPORT_20200820_R0_RF25.pdf
ACTIVATE-FLIGHTREPORT_20200821_R0_RF26.pdf
ACTIVATE-FLIGHTREPORT_20200825_R0_RF27.pdf
ACTIVATE-FLIGHTREPORT_20200826_R0_RF28.pdf
ACTIVATE-FLIGHTREPORT_20200828_R0_RF29.pdf
ACTIVATE-FLIGHTREPORT_20200902_R0_RF30.pdf
ACTIVATE-FLIGHTREPORT_20200903_R0_RF31.pdf
ACTIVATE-FLIGHTREPORT_20200910_R0_RF32.pdf
ACTIVATE-FLIGHTREPORT_20200911_R0_RF33.pdf
ACTIVATE-FLIGHTREPORT_20200915_R0_RF34.pdf
ACTIVATE-FLIGHTREPORT_20200916_R0_RF35.pdf
ACTIVATE-FLIGHTREPORT_20200921_R0_RF36.pdf
ACTIVATE-FLIGHTREPORT_20200922_R0_RF37.pdf
ACTIVATE-FLIGHTREPORT_20200923_R0_RF38.pdf
ACTIVATE-FLIGHTREPORT_20200929_R0_RF39.pdf
ACTIVATE-FLIGHTREPORT_20200930_R0_RF40.pdf
2021
ACTIVATE-FLIGHTREPORT_20210127_R0_RF41.pdf
ACTIVATE-FLIGHTREPORT_20210129_R0_L1_RF42.pdf
ACTIVATE-FLIGHTREPORT_20210129_R0_L2_RF43.pdf
ACTIVATE-FLIGHTREPORT_20210203_R0_RF44.pdf
ACTIVATE-FLIGHTREPORT_20210210_R0_RF45.pdf
ACTIVATE-FLIGHTREPORT_20210220_R0_RF46.pdf
ACTIVATE-FLIGHTREPORT_20210221_R0_RF47.pdf
ACTIVATE-FLIGHTREPORT_20210304_R0_RF48.pdf
ACTIVATE-FLIGHTREPORT_20210305_R0_L1_RF49.pdf
ACTIVATE-FLIGHTREPORT_20210305_R0_L2_RF50.pdf
ACTIVATE-FLIGHTREPORT_20210308_R0_RF51.pdf
ACTIVATE-FLIGHTREPORT_20210309_R0_RF52.pdf
ACTIVATE-FLIGHTREPORT_20210312_R0_L1_RF53.pdf
ACTIVATE-FLIGHTREPORT_20210312_R0_L2_RF54.pdf
ACTIVATE-FLIGHTREPORT_20210320_R0_RF55.pdf
ACTIVATE-FLIGHTREPORT_20210323_R0_RF56.pdf
ACTIVATE-FLIGHTREPORT_20210329_R0_RF57.pdf
ACTIVATE-FLIGHTREPORT_20210330_R0_L1_RF58.pdf
ACTIVATE-FLIGHTREPORT_20210330_R0_L2_RF59.pdf
ACTIVATE-FLIGHTREPORT_20210402_R0_L1_RF60.pdf
ACTIVATE-FLIGHTREPORT_20210402_R0_L2_RF61.pdf
ACTIVATE-FLIGHTREPORT_20210513_R0_RF62.pdf
ACTIVATE-FLIGHTREPORT_20210514_R0_L1_RF63.pdf
ACTIVATE-FLIGHTREPORT_20210514_R0_L2_RF64.pdf
ACTIVATE-FLIGHTREPORT_20210515_R0_RF65.pdf
ACTIVATE-FLIGHTREPORT_20210518_R0_RF66.pdf
ACTIVATE-FLIGHTREPORT_20210519_R0_L1_RF67.pdf
ACTIVATE-FLIGHTREPORT_20210519_R0_L2_RF68.pdf
ACTIVATE-FLIGHTREPORT_20210520_R0_RF69.pdf
ACTIVATE-FLIGHTREPORT_20210521_R0_L1_RF70.pdf
ACTIVATE-FLIGHTREPORT_20210521_R0_L2_RF71.pdf
ACTIVATE-FLIGHTREPORT_20210525_R0_RF72.pdf
ACTIVATE-FLIGHTREPORT_20210526_R0_L1_RF73.pdf
ACTIVATE-FLIGHTREPORT_20210526_R0_L2_RF74.pdf
ACTIVATE-FLIGHTREPORT_20210601_R0_RF75.pdf
ACTIVATE-FLIGHTREPORT_20210602_R0_L1_RF76.pdf
ACTIVATE-FLIGHTREPORT_20210602_R0_L2_RF77.pdf
ACTIVATE-FLIGHTREPORT_20210605_R0_RF78.pdf
ACTIVATE-FLIGHTREPORT_20210607_R0_L1_RF79.pdf
ACTIVATE-FLIGHTREPORT_20210607_R0_L2_RF80.pdf
ACTIVATE-FLIGHTREPORT_20210608_R0_L1_RF81.pdf
ACTIVATE-FLIGHTREPORT_20210608_R0_L2_RF82.pdf
ACTIVATE-FLIGHTREPORT_20210615_R0_RF83.pdf
ACTIVATE-FLIGHTREPORT_20210616_R0_RF84.pdf
ACTIVATE-FLIGHTREPORT_20210617_R0_RF85.pdf
ACTIVATE-FLIGHTREPORT_20210622_R0_RF86.pdf
ACTIVATE-FLIGHTREPORT_20210624_R0_RF87.pdf
ACTIVATE-FLIGHTREPORT_20210626_R0_L1_RF88.pdf
ACTIVATE-FLIGHTREPORT_20210626_R0_L2_RF89.pdf
ACTIVATE-FLIGHTREPORT_20210628_R0_RF90.pdf
ACTIVATE-FLIGHTREPORT_20210629_R0_RF91.pdf
ACTIVATE-FLIGHTREPORT_20210630_R0_L1_RF92.pdf
ACTIVATE-FLIGHTREPORT_20210630_R0_L2_RF93.pdf
2022
ACTIVATE-RF100_01112022_V1_DoNotCite.pdf
ACTIVATE-RF101_01112022_V1_DoNotCite.pdf
ACTIVATE-RF102_01122022_V1_DoNotCite.pdf
ACTIVATE-RF103_01122022_V1_DoNotCite.pdf
ACTIVATE-RF104_01152022_V1_DoNotCite.pdf
ACTIVATE-RF105_01182022_V1_DoNotCite.pdf
ACTIVATE-RF106_01182022_V1_DoNotCite.pdf
ACTIVATE-RF107_01192022_V1_DoNotCite.pdf
ACTIVATE-RF108_01192022_V1_DoNotCite.pdf
ACTIVATE-RF109_01242022_V1_DoNotCite.pdf
ACTIVATE-RF110_01242022_V1_DoNotCite.pdf
ACTIVATE-RF111_01262022_V1_DoNotCite.pdf
ACTIVATE-RF112_01262022_V1_DoNotCite.pdf
ACTIVATE-RF113_01272022_V1_DoNotCite.pdf
ACTIVATE-RF114_01272022_V1_DoNotCite.pdf
ACTIVATE-RF115_02012022_V1_DoNotCite.pdf
ACTIVATE-RF116_02022022_V1_DoNotCite.pdf
ACTIVATE-RF117_02032022_V1_DoNotCite.pdf
ACTIVATE-RF118_02032022_V1_DoNotCite.pdf
ACTIVATE-RF119_02052022_V1_DoNotCite.pdf
ACTIVATE-RF120_02152022_V1_DoNotCite.pdf
ACTIVATE-RF121_02152022_V1_DoNotCite.pdf
ACTIVATE-RF122_02162022_V1_DoNotCite.pdf
ACTIVATE-RF123_02162022_V1_DoNotCite.pdf
ACTIVATE-RF124_02192022_V1_DoNotCite.pdf
ACTIVATE-RF125_02192022_V1_DoNotCite.pdf
ACTIVATE-RF126_02222022_V1_DoNotCite.pdf
ACTIVATE-RF127_02222022_V1_DoNotCite.pdf
ACTIVATE-RF128_02262022_V1_DoNotCite.pdf
ACTIVATE-RF129_02262022_V1_DoNotCite.pdf
ACTIVATE-RF130_03022022_V1_DoNotCite.pdf
ACTIVATE-RF131_03032022_V1_DoNotCite.pdf
ACTIVATE-RF132_03032022_V1_DoNotCite.pdf
ACTIVATE-RF133_03042022_V1_DoNotCite.pdf
ACTIVATE-RF134_03042022_V1_DoNotCite.pdf
ACTIVATE-RF135_03072022_V1_DoNotCite.pdf
ACTIVATE-RF136_03072022_V1_DoNotCite.pdf
ACTIVATE-RF137_03132022_V1_DoNotCite.pdf
ACTIVATE-RF138_03132022_V1_DoNotCite.pdf
ACTIVATE-RF139_03142022_V1_DoNotCite.pdf
ACTIVATE-RF140_03142022_V1_DoNotCite.pdf
ACTIVATE-RF141_03182022_V1_DoNotCite.pdf
ACTIVATE-RF142_03222022_V1_DoNotCite.pdf
ACTIVATE-RF143_03222022_V1_DoNotCite.pdf
ACTIVATE-RF144_03262022_V1_DoNotCite.pdf
ACTIVATE-RF145_03262022_V1_DoNotCite.pdf
ACTIVATE-RF146_03282022_V1_DoNotCite.pdf
ACTIVATE-RF147_03292022_V1_DoNotCite.pdf
ACTIVATE-RF148_03292022_V1_DoNotCite.pdf
ACTIVATE-RF149_05032022_V1_DoNotCite.pdf
ACTIVATE-RF150_05052022_V1_DoNotCite.pdf
ACTIVATE-RF151_05052022_V1_DoNotCite.pdf
ACTIVATE-RF152_05102022_V1_DoNotCite.pdf
ACTIVATE-RF153_05162022_V1_DoNotCite.pdf
ACTIVATE-RF154_05162022_V1_DoNotCite.pdf
ACTIVATE-RF155_05172022_V1_DoNotCite.pdf
ACTIVATE-RF156_05182022_V1_DoNotCite.pdf
ACTIVATE-RF157_05182022_V1_DoNotCite.pdf
ACTIVATE-RF158_05202022_V1_DoNotCite.pdf
ACTIVATE-RF159_05212022_V1_DoNotCite.pdf
ACTIVATE-RF160_05212022_V1_DoNotCite.pdf
ACTIVATE-RF161_05312022_V1_DoNotCite.pdf
ACTIVATE-RF162_06022022_V1_DoNotCite.pdf
ACTIVATE-RF163_06022022_V1_DoNotCite.pdf
ACTIVATE-RF164_06032022_V1_DoNotCite.pdf
ACTIVATE-RF165_06052022_V1_DoNotCite.pdf
ACTIVATE-RF166_06072022_V1_DoNotCite.pdf
ACTIVATE-RF167_06072022_V1_DoNotCite.pdf
ACTIVATE-RF168_06082022_V1_DoNotCite.pdf
ACTIVATE-RF169_06082022_V1_DoNotCite.pdf
ACTIVATE-RF170_06102022_V1_DoNotCite.pdf
ACTIVATE-RF171_06102022_V1_DoNotCite.pdf
ACTIVATE-RF172_06112022_V1_DoNotCite.pdf
ACTIVATE-RF173_06112022_V1_DoNotCite.pdf
ACTIVATE-RF174_06132022_V1_DoNotCite.pdf
ACTIVATE-RF175_06132022_V1_DoNotCite.pdf
ACTIVATE-RF176_06142022_V1_DoNotCite.pdf
ACTIVATE-RF177_06162022_V1_DoNotCite.pdf
ACTIVATE-RF178_06172022_V1_DoNotCite.pdf
ACTIVATE-RF179_06182022_V1_DoNotCite.pdf
ACTIVATE-RF94_11302021_V1_DoNotCite.pdf
ACTIVATE-RF95_12012021_V1_DoNotCite.pdf
ACTIVATE-RF96_12072021_V1_DoNotCite.pdf
ACTIVATE-RF97_12092021_V1_DoNotCite.pdf
ACTIVATE-RF98_12092021_V1_DoNotCite.pdf
ACTIVATE-RF99_12102021_V1_DoNotCite.pdf
Manuscript Data
Manuscript Data for CAM5_East_model_results_R0_Corral.zip
(Data supporting publication "An Overview of Atmospheric Features Over the Western North Atlantic Ocean and North American East Coast – Part 1: Analysis of Aerosols Gases and Wet Deposition Chemistry")
Product Documentation
2020
ACTIVATE-2020_TakeoffLandingTimes.xlsx
(Take off and Landing times for individual 2020 Flights of the Falcon (H) and King Air (UC12) Aircrafts from 2-14-2020 through 9-30-2020)
MERRA2-MODIS
ACTIVATE-MET_ANALYSIS_MERRA2-MODIS_20170201_R0_20180131_README.txt
UC12
2020
ACTIVATE-DROPSONDE_UC12_20200214_R0_20200930_README.pdf
ACTIVATE-HSRL2_UC12_20200214_R0_20200930_READ_ME_FIRST.pdf
ACTIVATE-RSP-AER_UC12_20200210_R02_THRU_20200930_README.pdf
ACTIVATE-RSP-CLD_UC12_20200210_R2_THRU_20200930_README.pdf
ACTIVATE-RSP-L1C_UC12_20200210_R0_THRU_20200930_README.pdf
2021
ACTIVATE-DROPSONDE_UC12_20210203_R0_20210630_README.pdf
ACTIVATE-HSRL2_UC12_20210109_R0_20210630_READ_ME_FIRST.pdf
ACTIVATE_Data_File_Naming_Convention.pdf
Publication
Precipitation over the US Coastal Land/Water Using Gauge-Corrected Multi-Radar Multi-Sensor System and Three Satellite Products
Sources frequency and chemical nature of dust events impacting the United States East Coast
Contrasting wet deposition composition between three diverse islands and coastal North American sites
Impact of various air mass types on cloud condensation nuclei concentrations along coastal southeast Florida
Subtropical Marine Low Stratiform Cloud Deck Spatial Errors in the E3SMv1 Atmosphere Model
Effects of Biomass Burning on Stratocumulus Droplet Characteristics Drizzle Rate and Composition
Atmospheric Research Over the Western North Atlantic Ocean Region and North American East Coast: A Review of Past Work and Challenges Ahead
Relationships Between Supermicrometer Sea Salt Aerosol and Marine Boundary Layer Conditions: Insights From Repeated Identical Flight Patterns
Characterization of Aerosol Hygroscopicity Over the Northeast Pacific Ocean: Impacts on Prediction of CCN and Stratocumulus Cloud Droplet Number Concentrations
Predicting Vertical Concentration Profiles in the Marine Atmospheric Boundary Layer With a Markov Chain Random Walk Model
An Overview of Atmospheric Features Over the Western North Atlantic Ocean and North American East Coast – Part 1: Analysis of Aerosols Gases and Wet Deposition Chemistry
An Overview of Atmospheric Features Over the Western North Atlantic Ocean and North American East Coast—Part 2: Circulation Boundary Layer and Clouds
An Aerosol Climatology and Implications for Clouds at a Remote Marine Site: Case Study Over Bermuda
Cloud Aerosol and Radiative Properties Over the Western North Atlantic Ocean Journal of Geophysical Research: Atmospheres
On assessing ERA5 and MERRA2 representations of cold-air outbreaks across the Gulf Stream
Cold air outbreaks promote new particle formation off the U.S. East Coast
Particulate Oxalate-to-Sulfate Ratio as an Aqueous Processing Marker: Similarity Across Field Campaigns and Limitations
Biomass Burning Over the United States East Coast and Western North Atlantic Ocean: Implications for Clouds and Air Quality
Re-evaluation of Low Cloud Amount Relationships with Lower-Tropospheric Stability and Estimated Inversion Strength
Dilution of boundary layer cloud condensation nucleus concentrations by free tropospheric entrainment during marine cold air outbreaks
Aircraft Observations of Turbulence in Cloudy and Cloud-Free Boundary Layers Over the Western North Atlantic Ocean From ACTIVATE and Implications for the Earth System Model Evaluation and Development
Relationships between supermicrometer particle concentrations and cloud water sea salt and dust concentrations: Analysis of MONARC and ACTIVATE data
Dimethylamine in Cloud Water: A Case Study Over the Northwest Atlantic Ocean
Coupling an online ion conductivity measurement with the particle-into-liquid sampler: Evaluation and modeling using laboratory and field aerosol data
Two Stage Artificial Intelligence Algorithm for Calculating Moisture-Tracking Atmospheric Motion Vectors
Large-eddy simulations of marine boundary-layer clouds associated with cold air outbreaks during the ACTIVATE campaign- part 1: Case setup and sensitivities to large-scale forcings
Impact of Meteorological Factors on the Mesoscale Morphology of Cloud Streets during a Cold Air Outbreak over the western North Atlantic
Aerosol–Cloud–Meteorology Interaction Airborne Field Investigations: Using Lessons Learned from the U.S. West Coast in the Design of ACTIVATE off the U.S. East Coast.
Polarimeter + Lidar – Derived Aerosol Particle Number Concentration
Source Apportionment of Aerosol at a Coastal Site and Relationships with Precipitation Chemistry: A Case Study over the Southeast United States
Analysis of MONARC and ACTIVATE Airborne Aerosol Data for Aerosol-Cloud Interaction Investigations: Efficacy of Stairstepping Flight Legs for Airborne In Situ Sampling
Evaluation of global simulations of aerosol particle and cloud condensation nuclei number with implications for cloud droplet formation
Interannual variability and trends of combustion aerosol and dust in major continental outflows revealed by MODIS retrievals and CAM5 simulations during 2003–2017
Stratocumulus cloud clearings: statistics from satellites reanalysis models and airborne measurements
Surprising similarities in model and observational aerosol radiative forcing estimates
Reducing uncertainties in satellite estimates of aerosol–cloud interactions over the subtropical ocean by integrating vertically resolved aerosol observations
On the relationship between cloud water composition and cloud droplet number concentration
Organic Enrichment in Droplet Residual Particles Relative to Out of Cloud over the Northwest Atlantic: Analysis of Airborne ACTIVATE Data
Cloud drop number concentrations over the western North Atlantic Ocean: seasonal cycle aerosol interrelationships and other influential factors
Preconditioning of overcast-to-broken cloud transitions by riming in marine cold air outbreaks
Aerosol Responses to Precipitation Along North American Air Trajectories Arriving at Bermuda
Opportunistic experiments to constrain aerosol effective radiative forcing
Seasonal updraft speeds change cloud droplet number concentrations in low level clouds over the Western North Atlantic
The impact of sampling strategies on the cloud droplet number concentration estimated from satellite data
Related Website
ACTIVATE Project Home Page
Science Data Products
Analysis
2013
ACTIVATE-MET_ANALYSIS_20130101_R0_20130131_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20130201_R0_20130228_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20130301_R0_20130331_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20130401_R0_20130430_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20130501_R0_20130531_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20130601_R0_20130630_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20130701_R0_20130731_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20130801_R0_20130831_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20130901_R0_20130930_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20131001_R0_20131031_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20131101_R0_20131130_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20131201_R0_20131231_MERRA2-MODIS.gz
2014
ACTIVATE-MET_ANALYSIS_20140101_R0_20140131_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20140201_R0_20140228_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20140301_R0_20140331_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20140401_R0_20140430_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20140501_R0_20140531_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20140601_R0_20140630_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20140701_R0_20140731_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20140801_R0_20140831_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20140901_R0_20140930_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20141001_R0_20141031_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20141101_R0_20141130_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20141201_R0_20141231_MERRA2-MODIS.gz
2015
ACTIVATE-MET_ANALYSIS_20150101_R0_20150131_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20150201_R0_20150228_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20150301_R0_20150331_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20150401_R0_20150430_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20150501_R0_20150531_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20150601_R0_20150630_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20150701_R0_20150731_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20150801_R0_20150831_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20150901_R0_20150930_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20151001_R0_20151031_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20151101_R0_20151130_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20151201_R0_20151231_MERRA2-MODIS.gz
2016
ACTIVATE-MET_ANALYSIS_20160101_R0_20160131_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20160201_R0_20160229_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20160301_R0_20160331_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20160401_R0_20160430_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20160501_R0_20160531_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20160601_R0_20160630_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20160701_R0_20160731_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20160801_R0_20160831_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20160901_R0_20160930_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20161001_R0_20161031_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20161101_R0_20161130_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20161201_R0_20161231_MERRA2-MODIS.gz
2017
ACTIVATE-MET_ANALYSIS_20170101_R0_20170131_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20170201_R0_20170228_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20170301_R0_20170331_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20170401_R0_20170430_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20170501_R0_20170531_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20170601_R0_20170630_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20170701_R0_20170731_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20170801_R0_20170831_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20170901_R0_20170930_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20171001_R0_20171031_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20171101_R0_20171130_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20171201_R0_20171231_MERRA2-MODIS.gz
2018
ACTIVATE-MET_ANALYSIS_20180101_R0_20180131_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20180201_R0_20180228_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20180301_R0_20180331_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20180401_R0_20180430_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20180501_R0_20180531_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20180601_R0_20180630_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20180701_R0_20180731_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20180801_R0_20180831_MERRA2-MODIS.gz
ACTIVATE-MET_ANALYSIS_20180901_R0_20180930_MERRA2-MODIS.gz
Videos
2022
2022 N524NA Forward videos
UC12
2020
2020 ACTIVATE-CAMERA-FORWARD images available as one .zip file through the Suborbital Online Order Tool (SOOT)
2020 ACTIVATE-CAMERA-NADIR images available as one .zip file through the Suborbital Online Order Tool (SOOT)
2021
2021 ACTIVATE-CAMERA-FORWARD images available as one .zip file through the Suborbital Online Order Tool (SOOT)
2021 ACTIVATE-CAMERA-NADIR images available as one .zip file through the Suborbital Online Order Tool (SOOT)
Workshops
ACTIVATE Data Webinar Materials
(Resources and Material from ACTIVATE's Data Webinars and Workshops)